Tag: (E) round

(2007) Shape and colour


Wierzbicka, Anna (2007). Shape and colour in language and thought. In Andrea C. Schalley, & Drew Khlentzos (Eds.), Mental states: Vol. 2. Language and cognitive structure (pp. 37-60). Amsterdam: John Benjamins. DOI: 10.1075/slcs.93.05wie

“Colour” and “shape” are concepts important to the speakers of English and of many other languages. They are not, however, universal: there are many languages which have no words corresponding to the English words colour and shape, and in which questions like “what colour is it?” or “what shape is it?” cannot be asked at all. Clearly, speakers of such languages do not think about the world in terms of “colour” and “shape”. How do they think about it, then?

This study shows that by using an empirically discovered set of universal semantic primes which includes see and touch we can effectively explore ways of construal of the visual and tangible world different from those embedded in, and encouraged by, English.

(2010) Environmental semantic molecules


Goddard, Cliff (2010). Semantic molecules and semantic complexity (with special reference to “environmental” molecules). Review of Cognitive Linguistics, 8(1), 123-155. DOI: 10.1075/ml.8.1.05god

In the NSM approach to semantic analysis, semantic molecules are a well-defined set of non-primitive lexical meanings in a given language that function as intermediate-level units in the structure of complex meanings in that language. After reviewing existing work on the molecules concept (including the notion of levels of nesting), the paper advances a provisional list of about 180 productive semantic molecules for English, suggesting that a small minority of these (about 25) may be universal. It then turns close attention to a set of potentially universal level-one molecules from the “environmental” domain (‘sky’, ‘ground’, ‘sun’, ‘day’, ‘night’ ‘water’ and ‘fire’), proposing a set of original semantic explications for them. Finally, the paper considers the theoretical implications of the molecule theory for our understanding of semantic complexity, cross-linguistic variation in the structure of the lexicon, and the translatability of semantic  explications.


Research carried out by one or more experienced NSM practitioners

(2016) Semantic molecules


Goddard, Cliff (2016). Semantic molecules and their role in NSM lexical definitions. Cahiers de lexicologie, 109, 13-34. DOI: 10.15122/isbn.978-2-406-06861-7.p.0013

The Natural Semantic Metalanguage (NSM) approach is well known for its use of reductive paraphrase as a mode of lexical definition (conceptual analysis) and for its claim to have discovered an inventory of irreducible lexical meanings — semantic primes — that are apparently universal in the world’s languages. It is less well known that many NSM definitions rely crucially on semantic molecules, i.e. certain non-primitive meanings that function alongside semantic primes as building blocks in the composition of yet more complex lexical meanings.

This paper considers aspects of the NSM theory of semantic molecules, including: first, the notion of molecules within molecules (e.g. ‘mouth → ‘water’ → ‘drink’); second, the distribution of semantic molecules in the world’s languages: some are universal or near-universal, e.g. ‘hands,’ ‘children,’ ‘water’, others are widespread but not universal, e.g. ‘money’, and still others are specific to particular languages or linguistic/cultural areas; third, the emerging notions of “small molecules” and lexicosyntactic molecules. The paper includes explications for about twenty-five semantic molecules that are posited to be universal or near-universal.


Research carried out by one or more experienced NSM practitioners